Design And Implementation Of Optimized Multi-Target Aerial Delivery System For Flood Relief Packages

Abstract

This report presents a detailed exploration of the design and implementation of an optimized multi-target aerial delivery system tailored for flood relief packages. It comprehensively addresses various aspects, including aerodynamic analysis, structural integrity assessment, manufacturing processes, business case evaluation, qualification test plan, cost breakdown, and references. Through rigorous aerodynamic analysis using Computational Fluid Dynamics (CFD) simulations, critical parameters such as thrust generation and drag calculation are determined, ensuring stable flight performance in adverse weather conditions. Structural analysis, conducted via Finite Element Analysis (FEA), confirms the integrity and safety of the drone under diverse flight scenarios, with a particular focus on payload mechanisms and delivery precision. Manufacturing processes involve a strategic combination of commercial off-the-shelf (COTS) components, 3D printing for intricate parts, and precision machining for structural elements, ensuring efficiency and reliability. The business case highlights the mission-oriented approach of the project, emphasizing its potential to revolutionize flood relief efforts. A comprehensive qualification test plan outlines success criteria and objectives for lift capability, gear dropping mechanism, maneuverability, thrust generation, endurance, and structural integrity, ensuring the system's readiness for real-world deployment. The cost breakdown provides valuable insights into component pricing, facilitating budget planning and resource allocation. References from relevant studies and publications offer further validation and support for the design and development process. Overall, this report presents a holistic view of the multidisciplinary efforts involved in creating an advanced aerial delivery system poised to address the pressing needs of flood relief operations.